/* RetroArch - A frontend for libretro. * Copyright (C) 2010-2014 - Hans-Kristian Arntzen * Copyright (C) 2011-2015 - Daniel De Matteis * * RetroArch is free software: you can redistribute it and/or modify it under the terms * of the GNU General Public License as published by the Free Software Found- * ation, either version 3 of the License, or (at your option) any later version. * * RetroArch is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; * without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR * PURPOSE. See the GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along with RetroArch. * If not, see . */ #include "video_filter.h" #include "video_filters/softfilter.h" #include "../dynamic.h" #include #include #include "../file_ext.h" #include #include "../performance.h" #include struct rarch_soft_plug { #ifdef HAVE_DYLIB dylib_t lib; #endif const struct softfilter_implementation *impl; }; #ifdef HAVE_THREADS #include struct filter_thread_data { sthread_t *thread; const struct softfilter_work_packet *packet; scond_t *cond; slock_t *lock; void *userdata; bool die; bool done; }; static void filter_thread_loop(void *data) { struct filter_thread_data *thr = (struct filter_thread_data*)data; for (;;) { bool die; slock_lock(thr->lock); while (thr->done && !thr->die) scond_wait(thr->cond, thr->lock); die = thr->die; slock_unlock(thr->lock); if (die) break; if (thr->packet && thr->packet->work) thr->packet->work(thr->userdata, thr->packet->thread_data); slock_lock(thr->lock); thr->done = true; scond_signal(thr->cond); slock_unlock(thr->lock); } } #endif struct rarch_softfilter { config_file_t *conf; const struct softfilter_implementation *impl; void *impl_data; struct rarch_soft_plug *plugs; unsigned num_plugs; unsigned max_width, max_height; enum retro_pixel_format pix_fmt, out_pix_fmt; struct softfilter_work_packet *packets; unsigned threads; #ifdef HAVE_THREADS struct filter_thread_data *thread_data; #endif }; static const struct softfilter_implementation * softfilter_find_implementation(rarch_softfilter_t *filt, const char *ident) { unsigned i; for (i = 0; i < filt->num_plugs; i++) { if (!strcmp(filt->plugs[i].impl->short_ident, ident)) return filt->plugs[i].impl; } return NULL; } static const struct softfilter_config softfilter_config = { config_userdata_get_float, config_userdata_get_int, config_userdata_get_float_array, config_userdata_get_int_array, config_userdata_get_string, config_userdata_free, }; static bool create_softfilter_graph(rarch_softfilter_t *filt, enum retro_pixel_format in_pixel_format, unsigned max_width, unsigned max_height, softfilter_simd_mask_t cpu_features, unsigned threads) { unsigned input_fmts, input_fmt, output_fmts, i; char key[64], name[64]; struct config_file_userdata userdata; snprintf(key, sizeof(key), "filter"); if (!config_get_array(filt->conf, key, name, sizeof(name))) { RARCH_ERR("Could not find 'filter' array in config.\n"); return false; } if (filt->num_plugs == 0) { RARCH_ERR("No filter plugs found. Exiting...\n"); return false; } filt->impl = softfilter_find_implementation(filt, name); if (!filt->impl) { RARCH_ERR("Could not find implementation.\n"); return false; } userdata.conf = filt->conf; /* Index-specific configs take priority over ident-specific. */ userdata.prefix[0] = key; userdata.prefix[1] = filt->impl->short_ident; /* Simple assumptions. */ filt->pix_fmt = in_pixel_format; input_fmts = filt->impl->query_input_formats(); switch (in_pixel_format) { case RETRO_PIXEL_FORMAT_XRGB8888: input_fmt = SOFTFILTER_FMT_XRGB8888; break; case RETRO_PIXEL_FORMAT_RGB565: input_fmt = SOFTFILTER_FMT_RGB565; break; default: return false; } if (!(input_fmt & input_fmts)) { RARCH_ERR("Softfilter does not support input format.\n"); return false; } output_fmts = filt->impl->query_output_formats(input_fmt); /* If we have a match of input/output formats, use that. */ if (output_fmts & input_fmt) filt->out_pix_fmt = in_pixel_format; else if (output_fmts & SOFTFILTER_FMT_XRGB8888) filt->out_pix_fmt = RETRO_PIXEL_FORMAT_XRGB8888; else if (output_fmts & SOFTFILTER_FMT_RGB565) filt->out_pix_fmt = RETRO_PIXEL_FORMAT_RGB565; else { RARCH_ERR("Did not find suitable output format for softfilter.\n"); return false; } filt->max_width = max_width; filt->max_height = max_height; filt->impl_data = filt->impl->create( &softfilter_config, input_fmt, input_fmt, max_width, max_height, threads != RARCH_SOFTFILTER_THREADS_AUTO ? threads : rarch_get_cpu_cores(), cpu_features, &userdata); if (!filt->impl_data) { RARCH_ERR("Failed to create softfilter state.\n"); return false; } threads = filt->impl->query_num_threads(filt->impl_data); if (!threads) { RARCH_ERR("Invalid number of threads.\n"); return false; } RARCH_LOG("Using %u threads for softfilter.\n", threads); filt->packets = (struct softfilter_work_packet*) calloc(threads, sizeof(*filt->packets)); if (!filt->packets) { RARCH_ERR("Failed to allocate softfilter packets.\n"); return false; } #ifdef HAVE_THREADS filt->thread_data = (struct filter_thread_data*) calloc(threads, sizeof(*filt->thread_data)); if (!filt->thread_data) return false; filt->threads = threads; for (i = 0; i < threads; i++) { filt->thread_data[i].userdata = filt->impl_data; filt->thread_data[i].done = true; filt->thread_data[i].lock = slock_new(); if (!filt->thread_data[i].lock) return false; filt->thread_data[i].cond = scond_new(); if (!filt->thread_data[i].cond) return false; filt->thread_data[i].thread = sthread_create( filter_thread_loop, &filt->thread_data[i]); if (!filt->thread_data[i].thread) return false; } #endif return true; } #ifdef HAVE_DYLIB static bool append_softfilter_plugs(rarch_softfilter_t *filt, struct string_list *list) { unsigned i; softfilter_simd_mask_t mask = rarch_get_cpu_features(); for (i = 0; i < list->size; i++) { softfilter_get_implementation_t cb; const struct softfilter_implementation *impl = NULL; struct rarch_soft_plug *new_plugs = NULL; dylib_t lib = dylib_load(list->elems[i].data); if (!lib) continue; cb = (softfilter_get_implementation_t) dylib_proc(lib, "softfilter_get_implementation"); if (!cb) { dylib_close(lib); continue; } impl = cb(mask); if (!impl) { dylib_close(lib); continue; } if (impl->api_version != SOFTFILTER_API_VERSION) { dylib_close(lib); continue; } new_plugs = (struct rarch_soft_plug*) realloc(filt->plugs, sizeof(*filt->plugs) * (filt->num_plugs + 1)); if (!new_plugs) { dylib_close(lib); return false; } RARCH_LOG("[SoftFilter]: Found plug: %s (%s).\n", impl->ident, impl->short_ident); filt->plugs = new_plugs; filt->plugs[filt->num_plugs].lib = lib; filt->plugs[filt->num_plugs].impl = impl; filt->num_plugs++; } return true; } #elif defined(HAVE_FILTERS_BUILTIN) extern const struct softfilter_implementation *blargg_ntsc_snes_get_implementation(softfilter_simd_mask_t simd); extern const struct softfilter_implementation *lq2x_get_implementation(softfilter_simd_mask_t simd); extern const struct softfilter_implementation *phosphor2x_get_implementation(softfilter_simd_mask_t simd); extern const struct softfilter_implementation *twoxbr_get_implementation(softfilter_simd_mask_t simd); extern const struct softfilter_implementation *epx_get_implementation(softfilter_simd_mask_t simd); extern const struct softfilter_implementation *twoxsai_get_implementation(softfilter_simd_mask_t simd); extern const struct softfilter_implementation *supereagle_get_implementation(softfilter_simd_mask_t simd); extern const struct softfilter_implementation *supertwoxsai_get_implementation(softfilter_simd_mask_t simd); extern const struct softfilter_implementation *twoxbr_get_implementation(softfilter_simd_mask_t simd); extern const struct softfilter_implementation *darken_get_implementation(softfilter_simd_mask_t simd); extern const struct softfilter_implementation *scale2x_get_implementation(softfilter_simd_mask_t simd); static const softfilter_get_implementation_t soft_plugs_builtin[] = { blargg_ntsc_snes_get_implementation, lq2x_get_implementation, phosphor2x_get_implementation, twoxbr_get_implementation, darken_get_implementation, twoxsai_get_implementation, supertwoxsai_get_implementation, supereagle_get_implementation, epx_get_implementation, scale2x_get_implementation, }; static bool append_softfilter_plugs(rarch_softfilter_t *filt, struct string_list *list) { unsigned i; softfilter_simd_mask_t mask = rarch_get_cpu_features(); (void)list; filt->plugs = (struct rarch_soft_plug*) calloc(ARRAY_SIZE(soft_plugs_builtin), sizeof(*filt->plugs)); if (!filt->plugs) return false; filt->num_plugs = ARRAY_SIZE(soft_plugs_builtin); for (i = 0; i < ARRAY_SIZE(soft_plugs_builtin); i++) { filt->plugs[i].impl = soft_plugs_builtin[i](mask); if (!filt->plugs[i].impl) return false; } return true; } #else static bool append_softfilter_plugs(rarch_softfilter_t *filt, struct string_list *list) { (void)filt; (void)list; return false; } #endif rarch_softfilter_t *rarch_softfilter_new(const char *filter_config, unsigned threads, enum retro_pixel_format in_pixel_format, unsigned max_width, unsigned max_height) { char basedir[PATH_MAX_LENGTH]; softfilter_simd_mask_t cpu_features = rarch_get_cpu_features(); struct string_list *plugs = NULL; rarch_softfilter_t *filt = NULL; (void)basedir; filt = (rarch_softfilter_t*)calloc(1, sizeof(*filt)); if (!filt) return NULL; filt->conf = config_file_new(filter_config); if (!filt->conf) { RARCH_ERR("[SoftFilter]: Did not find config: %s\n", filter_config); goto error; } #if defined(HAVE_DYLIB) fill_pathname_basedir(basedir, filter_config, sizeof(basedir)); plugs = dir_list_new(basedir, EXT_EXECUTABLES, false); if (!plugs) { RARCH_ERR("[SoftFilter]: Could not build up string list...\n"); goto error; } #endif if (!append_softfilter_plugs(filt, plugs)) { RARCH_ERR("[SoftFitler]: Failed to append softfilter plugins...\n"); goto error; } if (plugs) string_list_free(plugs); plugs = NULL; if (!create_softfilter_graph(filt, in_pixel_format, max_width, max_height, cpu_features, threads)) { RARCH_ERR("[SoftFitler]: Failed to create softfilter graph...\n"); goto error; } return filt; error: if (plugs) string_list_free(plugs); plugs = NULL; rarch_softfilter_free(filt); return NULL; } void rarch_softfilter_free(rarch_softfilter_t *filt) { unsigned i = 0; (void)i; if (!filt) return; free(filt->packets); if (filt->impl && filt->impl_data) filt->impl->destroy(filt->impl_data); #ifdef HAVE_DYLIB for (i = 0; i < filt->num_plugs; i++) { if (filt->plugs[i].lib) dylib_close(filt->plugs[i].lib); } free(filt->plugs); #endif #ifdef HAVE_THREADS for (i = 0; i < filt->threads; i++) { if (!filt->thread_data[i].thread) continue; slock_lock(filt->thread_data[i].lock); filt->thread_data[i].die = true; scond_signal(filt->thread_data[i].cond); slock_unlock(filt->thread_data[i].lock); sthread_join(filt->thread_data[i].thread); slock_free(filt->thread_data[i].lock); scond_free(filt->thread_data[i].cond); } free(filt->thread_data); #endif free(filt); } void rarch_softfilter_get_max_output_size(rarch_softfilter_t *filt, unsigned *width, unsigned *height) { rarch_softfilter_get_output_size(filt, width, height, filt->max_width, filt->max_height); } void rarch_softfilter_get_output_size(rarch_softfilter_t *filt, unsigned *out_width, unsigned *out_height, unsigned width, unsigned height) { if (filt && filt->impl && filt->impl->query_output_size) filt->impl->query_output_size(filt->impl_data, out_width, out_height, width, height); } enum retro_pixel_format rarch_softfilter_get_output_format( rarch_softfilter_t *filt) { return filt->out_pix_fmt; } void rarch_softfilter_process(rarch_softfilter_t *filt, void *output, size_t output_stride, const void *input, unsigned width, unsigned height, size_t input_stride) { unsigned i; if (filt && filt->impl && filt->impl->get_work_packets) filt->impl->get_work_packets(filt->impl_data, filt->packets, output, output_stride, input, width, height, input_stride); #ifdef HAVE_THREADS /* Fire off workers */ for (i = 0; i < filt->threads; i++) { #if 0 RARCH_LOG("Firing off filter thread %u ...\n", i); #endif filt->thread_data[i].packet = &filt->packets[i]; slock_lock(filt->thread_data[i].lock); filt->thread_data[i].done = false; scond_signal(filt->thread_data[i].cond); slock_unlock(filt->thread_data[i].lock); } /* Wait for workers */ for (i = 0; i < filt->threads; i++) { #if 0 RARCH_LOG("Waiting for filter thread %u ...\n", i); #endif slock_lock(filt->thread_data[i].lock); while (!filt->thread_data[i].done) scond_wait(filt->thread_data[i].cond, filt->thread_data[i].lock); slock_unlock(filt->thread_data[i].lock); } #else for (i = 0; i < filt->threads; i++) filt->packets[i].work(filt->impl_data, filt->packets[i].thread_data); #endif }